Starting from the operational and functional aspects of the discipline, anchoring aspects of daily life and the technical applications ie, its predictive and prescriptive, the course investigates the correlates conceptual and methodological aspects. Also, the lectures will be held with the help of virtual laboratories in order to create a critical spirit, starting from the problematic nature of the experiment (or measure) and its relation with the theoretical description.

Knowledge (knowledge) 1. Understand the fundamental physical quantities and the derivatives of interest in the field of study 2. Know the units of physical quantities 3. Knowing the nature (scalar or vector) of physical quantities 4. Knowing these steps (vector calculus) between the physical quantities 5. Knowing the basic laws of physics addressed during the course 6. Know how to interpret and systematize the physical dynamics of a process and quantify the variables of interest Skills (skills) 1. Knowing how to identify the physical processes involved in the processes under study 2. Knowing describe the physical processes identified by the models introduced 3. Know how to interpret the results obtained by physical modeling of the process Behaviors (interpersonal skills) 1. Participate actively in the ongoing activities 2. Knowing how to identify the most appropriate techniques to solve problems